US2243849A - Electric lamp filament - Google Patents

Electric lamp filament Download PDF

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US2243849A
US2243849A US321171A US32117140A US2243849A US 2243849 A US2243849 A US 2243849A US 321171 A US321171 A US 321171A US 32117140 A US32117140 A US 32117140A US 2243849 A US2243849 A US 2243849A
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filament
lamp
metallic
spirally wound
lamp body
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US321171A
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Kratky Anton
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01KELECTRIC INCANDESCENT LAMPS
    • H01K1/00Details
    • H01K1/02Incandescent bodies
    • H01K1/04Incandescent bodies characterised by the material thereof
    • H01K1/08Metallic bodies
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01KELECTRIC INCANDESCENT LAMPS
    • H01K1/00Details
    • H01K1/18Mountings or supports for the incandescent body
    • H01K1/20Mountings or supports for the incandescent body characterised by the material thereof
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T428/00Stock material or miscellaneous articles
    • Y10T428/29Coated or structually defined flake, particle, cell, strand, strand portion, rod, filament, macroscopic fiber or mass thereof
    • Y10T428/2913Rod, strand, filament or fiber
    • Y10T428/2922Nonlinear [e.g., crimped, coiled, etc.]
    • Y10T428/2925Helical or coiled

Definitions

  • My invention relates to incandescent metallic filament electric lampjs' for-lighting purposes and to methods for-their manufacture. It has particular reference to such lamps in which the metallic filament to be brought to incandescence is of tungsten, tantalum, osmium or similar metal.
  • the filament was usually disposed in substantially straight lines between supports. This filament arrangement was unsatisfactory in that a large amount of the heat developed by its electrical resistance was ineffective because of heat radiation from the filament within the lamp receptacle, whereby the amount of current required to bring the filament to incandescence was increased.
  • the filament of spirally wound wire was at first single, that is, a single straight wire twisted into spirals or helices, and later were also double, that is, a spirally wound wire forming a helix which is in turn wound upon itself to form another helix. Lamps so constructed were much more efiicient than those made with the single, straight filament. However, neither construction has proven fully effective in eliminating the undesirable heat radiations which so reduce the efiiciency of the straight filament lamp. Moreover, both types of spirally wound filaments have the additional disadvantage that, at the temperature necessary to produce incandescence, the filaments tend to soften, and the individual windings to-change l position until they contact with each other. Under such conditions a short circuit between adjacent turns of the spiral may take place and eventually destroy the lamp.
  • Fig. l is a diagrammatic representationupon a greatly enlarged scale of a metallic lamp filament constructed according to my invention.
  • Fig. 2 shows such a filament inserted in a conventional lamp body.
  • the numeral I represents a spirally wound metallic incandescent lamp filament having the terminal portions! and 3 adapted for mounting in the usual manner within alamp body-5. Surrounding and interwoven around and between the individual windings of the filament is an elastic, fibrous, cohesive, skeleton-like frame structure 4 adapted to support the spiral in normal position when the lamp is in use.
  • the frame structure 4 be made of a refractory material of higher ure be avoided.
  • the refractory material supports the wires in their normal position and pre-,. vents them from becoming disturbed or displaced when the filament is heated to say about its softening point, and insulates the individual bare windings against loss of heat by radiation and also from direct contact with each other with consequent short circuiting, should some slight distortion of the wires occur at the operating temperature.
  • oxides of thorium, zirconium or magnesium used alone or mixed with the oxides of cerium, lanthanum, or praseodymium are most effective for my purpose, and of these,
  • Thorium oxide has a melting point of about 3000 C. and a softening point of about 2700* v to 2800 C. at atmospheric pressure, as against a softening point for the tungsten wires of about 2500 C.
  • the thorium compound remains stable and will hold the tungsten wires efiectively against distortion and displacements.
  • a lamp according to my invention may con- I veniently be constructed by immersing the spirally wound metallic filament I, whether single or double spiral, before it is mounted in the lamp receptacle, into a solution of a nitrate or acetate of thorium, zirconium or magnesium. To this solution nitrates or acetates of cerium, lanthanum or praseodymium or similar rare earth metals may be added to the extent of about The metal filament is. now-removed from the, solution and mounted in the lamp receptacle by connecting the binding terminals 2 land 3 in the usual manner, and the current is turned on,
  • acetate solution fibers or threads of inorganic material such as thorium oxide, zirconium oxide or magnesium oxide.
  • These threads may be produced according to known processes such as The combined fibrous material and metallic oxide particles will be found to have arranged themselves into a lattice-like skeleton around' and between the individual windings of the filanormal position even when the filament is heated above the point at which'the metal begins to soften. Should some slight displacement of one or more of the individual windings nevertheless occur, the particles of metallic oxide intertwined between the windings will insulate them against contact with each other, thus preventing un-' desirable short circuiting.
  • this elastic, cohesive skeleton frame will be materially increasedif prior to this immersion in the metal nitrate or acetate solution, the spiral is immersed'in an acetate or like solution which contains no thorium or like metallic compounds and thereafter is immersed in the metallic solution.
  • a lamp thus constructed not only has the advantages over former known lamps that heat radiations andshort circuiting with consequent premature destruction of the lamp, as above described, are avoided, but in addition, the lamp filament may be heated to a higher temperature thanformerly, with consequent increase oi. light; yield from the incandescent filament; and this yield is increased still further because at that temperature the skeleton itself also becomes incandescent.
  • An electric lam p comprising, in combination, a lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous expansible'and contractible supporting structure containing a refractory material having a softening point higher than the softening point of the filament.
  • An electric lamp comprising, in combination, a-lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous lattice-like supporting structure containing fiber ash and a refractory material --having a softening point i higher than the softening point of the filament.
  • An electric lamp comprising, in combination, a lamp body, a spirally wound metallic filament mounted-within said lampbody, and means to retain the spiral turns of the filament in proper relative position comprising -'a porous expansible and contractible supporting structure containing an oxide of a metal selected from the group consisting of thorium, zirconium and magnesium.
  • An electric lamp comprising, in combination, a lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous lattice-like supporting structure containing fiber ash and a plurality of oxides of metals selected from the group consisting of thorium, zirconium and magnesium;
  • An electric lamp comprising, in combination, a lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous expansible and contractible supporting structure containing a plurality of oxides of one or more metals from the group consisting of thorium,
  • An electric lamp comprising, in combination, a lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position'comprising a porous latticelike structure containing fiber ash, an oxide of a I metal selected from the group'consistlng of thorium, zirconium and magnesium, and an oxide of a metal selected from the group con sisting of cerium, lanthanum and praseodymium.
  • electric lamp comprising, in combination, a lamp body, a. spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous expansible and contractible supporting structure containing thorium oxide.
  • a filamentary element capable of being rendered incandescent comprising, a spirally wound refractory metallic; filament, the individual convolutions of which are held in the threads of a porous. cohesive, expansible and contractible supporting structure of refractory materialpf higher softening point than that of the filament, intertwined around, between, and within the space enclosed by, said convolutions, and having interwoven therethrough as an integral part thereof, threads of fibrous material.
  • a filamentary element-capable of candescent comprising,

Description

June 3, 1941.
A. KRATKY ELECTRIC LAMP FILAMENT Filed Feb. 28, 1940 INVENTOR Patented June 3, 1941 UNITED STATES PATENT OFFICE 'ELECTRTCLAMPFILAMENT Anton Kratky, New York, N. Y. Application 'February as, 1940, Serial No. scum Claims.
My invention relates to incandescent metallic filament electric lampjs' for-lighting purposes and to methods for-their manufacture. It has particular reference to such lamps in which the metallic filament to be brought to incandescence is of tungsten, tantalum, osmium or similar metal. I
"In early electric lamps of this type, the filament was usually disposed in substantially straight lines between supports. This filament arrangement was unsatisfactory in that a large amount of the heat developed by its electrical resistance was ineffective because of heat radiation from the filament within the lamp receptacle, whereby the amount of current required to bring the filament to incandescence was increased.
To overcome this disadvantage, it was proposed to construct the filament of spirally wound wire. The spirals were at first single, that is, a single straight wire twisted into spirals or helices, and later were also double, that is, a spirally wound wire forming a helix which is in turn wound upon itself to form another helix. Lamps so constructed were much more efiicient than those made with the single, straight filament. However, neither construction has proven fully effective in eliminating the undesirable heat radiations which so reduce the efiiciency of the straight filament lamp. Moreover, both types of spirally wound filaments have the additional disadvantage that, at the temperature necessary to produce incandescence, the filaments tend to soften, and the individual windings to-change l position until they contact with each other. Under such conditions a short circuit between adjacent turns of the spiral may take place and eventually destroy the lamp.
Itis an object of the present invention to construct a lamp of the character described, which can be operated witha minimum of electric current and a maximum of efiiciency, and which will not have the disadvantages just mentioned.
An illustrative embodiment of my invention is shown in the accompanying drawing in which Fig. l is a diagrammatic representationupon a greatly enlarged scale of a metallic lamp filament constructed according to my invention.
Fig. 2 shows such a filament inserted in a conventional lamp body.
The numeral I represents a spirally wound metallic incandescent lamp filament having the terminal portions! and 3 adapted for mounting in the usual manner within alamp body-5. Surrounding and interwoven around and between the individual windings of the filament is an elastic, fibrous, cohesive, skeleton-like frame structure 4 adapted to support the spiral in normal position when the lamp is in use.
softening point than that of the filament the disadvantages just described can in large meas- I have discovered that if the frame structure 4 be made of a refractory material of higher ure be avoided. The refractory material supports the wires in their normal position and pre-,. vents them from becoming disturbed or displaced when the filament is heated to say about its softening point, and insulates the individual bare windings against loss of heat by radiation and also from direct contact with each other with consequent short circuiting, should some slight distortion of the wires occur at the operating temperature.
I have found that oxides of thorium, zirconium or magnesium, used alone or mixed with the oxides of cerium, lanthanum, or praseodymium are most effective for my purpose, and of these,
' thorium oxide is the most satisfactory.
Thorium oxide has a melting point of about 3000 C. and a softening point of about 2700* v to 2800 C. at atmospheric pressure, as against a softening point for the tungsten wires of about 2500 C. Thus, even though the filament be heated to 2500 C. or slightly higher, the thorium compound remains stable and will hold the tungsten wires efiectively against distortion and displacements.
A lamp according to my invention may con- I veniently be constructed by immersing the spirally wound metallic filament I, whether single or double spiral, before it is mounted in the lamp receptacle, into a solution of a nitrate or acetate of thorium, zirconium or magnesium. To this solution nitrates or acetates of cerium, lanthanum or praseodymium or similar rare earth metals may be added to the extent of about The metal filament is. now-removed from the, solution and mounted in the lamp receptacle by connecting the binding terminals 2 land 3 in the usual manner, and the current is turned on,
preferably while the receptacle is being evacuated. This results in the burning away of the organic fibers and the conversion of the metallic nitrates or acetates to metallic oxides.
There may also be added to the nitrate or;
acetate solution fibers or threads of inorganic material such as thorium oxide, zirconium oxide or magnesium oxide.
the extruding of colloidal solutions in the man ner employed in the manufacture of artificial silk, or according to known processes of manufacturing glass wool or quartz glass wool.
Thus there is impartedto These threads may be produced according to known processes such as The combined fibrous material and metallic oxide particles will be found to have arranged themselves into a lattice-like skeleton around' and between the individual windings of the filanormal position even when the filament is heated above the point at which'the metal begins to soften. Should some slight displacement of one or more of the individual windings nevertheless occur, the particles of metallic oxide intertwined between the windings will insulate them against contact with each other, thus preventing un-' desirable short circuiting.
The thickness of this elastic, cohesive skeleton frame will be materially increasedif prior to this immersion in the metal nitrate or acetate solution, the spiral is immersed'in an acetate or like solution which contains no thorium or like metallic compounds and thereafter is immersed in the metallic solution.
A lamp thus constructed not only has the advantages over former known lamps that heat radiations andshort circuiting with consequent premature destruction of the lamp, as above described, are avoided, but in addition, the lamp filament may be heated to a higher temperature thanformerly, with consequent increase oi. light; yield from the incandescent filament; and this yield is increased still further because at that temperature the skeleton itself also becomes incandescent.
Practically all of the visible rays of the spectrum will pass through this skeleton so that my lamp will burn with a clear, white light.
I claim as my invention:
1. An electric lam p comprising, in combination, a lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous expansible'and contractible supporting structure containing a refractory material having a softening point higher than the softening point of the filament.
2. An electric lamp comprising, in combination, a-lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous lattice-like supporting structure containing fiber ash and a refractory material --having a softening point i higher than the softening point of the filament.
3. An electric lamp comprising, in combination, a lamp body, a spirally wound metallic filament mounted-within said lampbody, and means to retain the spiral turns of the filament in proper relative position comprising -'a porous expansible and contractible supporting structure containing an oxide of a metal selected from the group consisting of thorium, zirconium and magnesium.
' between, and within. the
4. An electric lamp comprising, in combination, a lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous lattice-like supporting structure containing fiber ash and a plurality of oxides of metals selected from the group consisting of thorium, zirconium and magnesium;
5. An electric lamp comprising, in combination, a lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous expansible and contractible supporting structure containing a plurality of oxides of one or more metals from the group consisting of thorium,
- zirconium and magnesium, and oxides of metals selected from the group consisting of cerium, lanthanum and praseodymium.
6. An electric lamp comprising, in combination, a lamp body, a spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position'comprising a porous latticelike structure containing fiber ash, an oxide of a I metal selected from the group'consistlng of thorium, zirconium and magnesium, and an oxide of a metal selected from the group con sisting of cerium, lanthanum and praseodymium.
' 7.-A.n electric lamp comprising, in combination, a lamp body, a. spirally wound metallic filament mounted within said lamp body, and means to retain the spiral turns of the filament in proper relative position comprising a porous expansible and contractible supporting structure containing thorium oxide.
8. An electric lamp tion, a lamp body, a spirally wound metallic filament mounted within said lamp body, and
means to retain the spiral turns of the filament in proper relative position comprising a porous lattice-like support g structure containing fiber 'ash and thorium oxide. 7
9. In an electric incandescent lamp, a filamentary element capable of being rendered incandescent comprising, a spirally wound refractory metallic; filament, the individual convolutions of which are held in the threads of a porous. cohesive, expansible and contractible supporting structure of refractory materialpf higher softening point than that of the filament, intertwined around, between, and within the space enclosed by, said convolutions, and having interwoven therethrough as an integral part thereof, threads of fibrous material.
10. In an electric incandescent lamp, a filamentary element-capable of candescent, comprising,
being rendered ina spirally wound re fractory metallic filament, the individual 'conyolutions of which are held in proper relative position by the threads refractory material of higher softening point than that of the filament; intertwined around, space enclosed by, said convolutions, andhaving interwoven therethrough as an integral part thereof, threads of fibrous-material from which all combustible matter has been burned away.
ANTON KRA'I'KY.
comprising, in combinaproper relative position by of a porous, cohesive, expansible and contractible supporting body of
US321171A 1940-02-28 1940-02-28 Electric lamp filament Expired - Lifetime US2243849A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2424518A (en) * 1944-12-04 1947-07-22 Gen Electric Coil electrode
US2828233A (en) * 1953-10-07 1958-03-25 William P Langworthy Coating and annealing process for magnetic materials and coated article produced thereby
US3503096A (en) * 1945-04-07 1970-03-31 Luigi Marianelli Continuous-flow filter for extruders and similar machines for processing plastic materials
US5389853A (en) * 1992-10-01 1995-02-14 General Electric Company Incandescent lamp filament with surface crystallites and method of formation

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2424518A (en) * 1944-12-04 1947-07-22 Gen Electric Coil electrode
US3503096A (en) * 1945-04-07 1970-03-31 Luigi Marianelli Continuous-flow filter for extruders and similar machines for processing plastic materials
US2828233A (en) * 1953-10-07 1958-03-25 William P Langworthy Coating and annealing process for magnetic materials and coated article produced thereby
US5389853A (en) * 1992-10-01 1995-02-14 General Electric Company Incandescent lamp filament with surface crystallites and method of formation

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